JP7175745B2 - System having multiple SIM-equipped terminals and communication equipment - Google Patents

Description

TECHNICAL FIELD The present invention relates to a terminal equipped with a plurality of SIMs (Subscriber Identity Modules) and a communication facility device for the terminal.

In recent years, smartphones compatible with dual SIM (Dual SIM) have become popular. Dual SIM includes "DSSS (Dual SIM Single Standby)" in which only one SIM can stand by, and "DSDS (Dual SIM Dual Standby)" in which both SIMs can stand by at the same time.
In the case of dual SIM smart phones, for example, a SIM for voice call flat-rate service and a SIM for low-cost data communication service can be used separately. Also, for example, a SIM for business contracts and a SIM for private contracts can be used separately.

As another technology, in order to reduce the power consumption of smartphone batteries and the power consumption of base stations, for example, for wireless communication technology such as LTE (Long Term Evolution), there is a technology called DRX (Discontinuous Reception). (For example, see Non-Patent Document 1). This technology repeats communication and pause between a smartphone and a base station with an intermittent reception interval of 1.28 seconds. As a result, constant connection between the smartphone and the base station can be avoided, and power consumption can be suppressed.

On the other hand, if the terminal is an IoT (Internet of Things) device that does not require real-time communication, there is also a technology called eDRX (extended DRX) that can set the intermittent reception interval up to about 44 minutes. In this case, power consumption can be suppressed by making the intermittent reception interval very long.

"Monthly charge of 40 yen impact, KDDI's first LTE service for IoT in Japan", [online], [searched December 14, 2018], Internet <URL: https://tech.nikkeibp.co.jp/it /atcl/column/14/346926/122001254/>

In both DRX and eDRX described above, the discontinuous reception interval is fixedly set between the smartphone and the communication equipment (for example, MME (Mobility Management Entity) including a base station).
Normally, the intermittent reception interval between the smartphone and the communication equipment should be as short as possible. For the user, for example, incoming calls and incoming messages can be recognized in real time. For this reason, the intermittent reception interval in general smartphones is currently fixed at a short time of 1.28 seconds.

On the other hand, in an emergency such as a large-scale disaster or communication failure, users and communication carriers would like to reduce the power consumption of smartphones and base stations as much as possible.
That is, if the intermittent reception interval can be lengthened in such an emergency, the user can reduce power consumption of the battery of the smartphone. As a telecommunications carrier, it is possible to temporally disperse the traffic that concentrates on the communication equipment.

However, the intermittent reception interval is fixedly set between the smartphone and the communication equipment, and no protocol sequence is defined to change it. Of course, the number of seconds for the call timeout is also uniform, and is only the system setting value.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a system having a terminal and communication equipment that uses a plurality of SIMs to reduce the battery power consumption of the terminal and realize the energy saving mode of the communication equipment.

According to the present invention, in a system having a terminal equipped with a plurality of SIMs (Subscriber Identity Modules) and a communication facility device including a core network device and an authentication database ,
For the terminal, a different subscriber identification number is described for each SIM,
The authentication database registers intermittent time intervals for each subscriber identification number,
the terminal sends a packet connection request containing a subscriber identification number based on each SIM;
When the core network device receives a packet connection request from the terminal, it transmits an authentication request including the subscriber identification number to the authentication database,
The authentication database returns an authentication response including the intermittent reception interval registered according to the subscriber identification number to the core network device,
The core network device returns a packet connection response including an intermittent reception interval based on the authentication response to the terminal, and operates with the terminal based on the intermittent reception interval.
It is characterized by

According to another embodiment of the system of the invention,
The terminal is equipped with a normal mode SIM and an energy saving mode SIM , and uses only one of the SIMs exclusively as DSSS (Dual SIM Single Standby),
The intermittent reception interval in the normal mode SIM is a standard value based on DRX (Discontinuous Reception),
It is also preferable that the intermittent reception interval in the energy-saving mode SIM is a standard value based on eDRX (extended DRX).

According to another embodiment of the system of the invention,
It is also preferable that the terminal connects to the communication equipment using the energy saving mode SIM when the user selects and operates the terminal or when the energy saving operation should be automatically executed according to a predetermined condition.

According to another embodiment of the system of the invention,
The subscriber identification number (IMSI (International Mobile Subscriber Identity)) of the normal mode SIM installed in the same terminal and the subscriber identification number of the energy saving mode SIM are linked in advance under the contract of the same user. is a
The terminals are also preferably exclusively controlled such that when one SIM connects to the communication equipment, the other SIM disconnects from the communication equipment.

According to another embodiment of the system of the invention,
The communication equipment further has a CSCF (Call Session Control Function),
When the CSCF receives a terminal-based VoLTE (Voice over Long Term Evolution) connection request, send an authentication request to the authentication database;
the authentication database returning an authentication response containing the subscriber identification number and mode to the CSCF;
The CSCF preferably also operates based on the discontinuous reception interval according to the mode for the terminal.

According to another embodiment of the system of the invention,
The communication equipment further has a TAS (Telephony Application Server),
When the TAS receives a terminal-based VoLTE connection request, it sends an authentication request including a subscriber identification number to an authentication database;
the authentication database returning an authentication response to the TAS including the mode according to the subscriber identification number;
The TAS also preferably operates based on a mode-dependent discontinuous reception interval for the terminal in question.

According to another embodiment of the system of the invention,
The TAS for normal mode transmits a pre-ringback tone different from the ringback tone to the calling terminal in response to a call connection request from the calling terminal when the called terminal is for energy saving mode. is also preferred.

According to the system of the present invention, a plurality of SIMs can be used to reduce the power consumption of the battery of the terminal and realize the energy-saving mode of the communication equipment.

FIG. 4 is an explanatory diagram of a terminal in the present invention; 1 is a functional configuration diagram of a communication facility device according to the present invention; FIG. FIG. 4 is a sequence diagram between a terminal and communication equipment in the present invention; FIG. 10 is a sequence diagram for returning a pre-ringback tone when a SIM for energy saving mode is on the receiving side;

BEST MODE FOR CARRYING OUT THE INVENTION Below, embodiments of the present invention will be described in detail with reference to the drawings.

FIG. 1 is an explanatory diagram of a terminal in the present invention.

According to FIG. 1(a), a smartphone 1 serving as a terminal is equipped with a plurality of SIMs, and VoLTE connection is possible between each SIM and communication equipment.
Also, the subscriber identification number (IMSI (International Mobile Subscriber Identity)) described in each SIM is different. If a different subscriber identification number is assigned to each SIM, it is generally recognized as a different subscriber. For this reason, the communication facility device associates different SIMs in advance under the contract of the same user.

According to the technology stipulated in 3GPP TS 24.239 Flexible Alerting (FA), telephone numbers assigned to different SIMs of different terminals can be pre-associated with representative telephone numbers in communication equipment. , incoming calls to and from a representative telephone number can be forwarded to the other terminal.

According to FIG. 1B, different intermittent reception intervals are set for each SIM installed in the same smartphone 1 . Specifically, it is divided into a normal mode SIM 11 and an energy saving mode SIM 12 .

For the normal mode SIM 11, a standard value based on DRX (extended discontinuous reception) is set as the intermittent reception interval. For DRX, the discontinuous reception interval is set to 1.28 seconds, for example.
For the energy saving mode SIM 12, a standard value based on eDRX (extended DRX) is set as the intermittent reception interval. In the case of eDRX, the discontinuous reception interval can be arbitrarily set, for example, up to about 44 minutes.

The smartphone 1 switches to the energy-saving mode SIM 12 and connects to the communication equipment when the user performs a selection operation, or when the energy-saving operation should be automatically performed according to a predetermined condition (e.g., in an emergency).
Also, when one SIM is connected to the communication equipment, exclusive control is performed so that the other SIM is disconnected from the communication equipment.

FIG. 2 is a functional configuration diagram of the communication equipment in the present invention.

As communication equipment devices, base station 2, core network device 3, authentication database 4, P-CSCF (Proxy-Call Session Control Function) 51 and 52, S-CSCF (Serving-CSCF) 61 and 62 , TAS (Telephony Application Server) 71 and 72 .
Normal mode SIM 11 communicates with P-CSCF 51, S-CSCF 61 and TAS 71 according to the subscriber identification number. In this case, TAS 71 functions for normal mode.
On the other hand, the energy saving mode SIM 12 communicates with the P-CSCF 52, S-CSCF 62 and TAS 72 according to the subscriber identification number. In this case, the TAS 72 functions as an energy saving mode.

FIG. 3 is a sequence diagram between a terminal and communication equipment in the present invention.

(S311) The smartphone (terminal) 1 transmits a packet connection request to the core network device 3 from either the normal mode SIM 11 or the energy saving mode SIM 12 .

At this time, the smartphone 1 does not allow simultaneous connection of the normal mode SIM 11 and the energy saving mode SIM 12 . That is, the smartphone 1 functions as a DSSS (Dual SIM Single Standby) that exclusively uses only one of the SIMs.

In addition, it is not assumed that either the normal mode SIM 11 or the energy saving mode SIM 12 is taken out and used in different smartphones, such as being inserted into another smartphone. The communication equipment will only accept the SIM that has sent the most recent packet connection request. Specifically, when a packet connection request is made from one SIM, the connection of the other SIM is disconnected.

(S312) The authentication database 4 registers the normal mode or the energy saving mode and the intermittent reception interval corresponding to each mode for each subscriber identification number.
Core network device 3 transmits an authentication request to authentication database 4 . The authentication request includes the SIM subscriber identification number based on the packet connection request.
In response, the authentication database 4 returns an authentication response to the core network device 3 . The authentication response includes the intermittent reception interval registered according to the subscriber identification number based on the authentication request.
Thereby, the core network device 3 sets the intermittent reception interval with the SIM based on the packet connection request, and operates with the smartphone 1 based on the intermittent reception interval.

( S<b>313 ) Then, the core network device 3 returns a packet connection response to the smart phone 1 . The packet connection response contains the intermittent reception interval corresponding to the subscriber identification number of that SIM.
This sets the intermittent reception interval for the SIM installed in the smartphone 1 .

Of course, the intermittent reception interval may be fixed in advance according to the subscriber identification number for each SIM. In that case, the SIM of the smartphone 1 confirms that the intermittent reception interval of the packet connection response received in S313 matches the preset interval reception interval.

(S321) Next, the smartphone 1 transmits a VoLTE connection request to the core network device 3 from the SIM that received the packet connection response in S313.

(S322) The core network device 3 transfers the VoLTE connection request to the P-CSCF 5 corresponding to the subscriber identification number.
P-CSCF 5 forwards the VoLTE connection request to S-CSCF 6 in response to P-CSCF 5 .

(S323) S-CSCF 6 sends an authentication request to authentication database 4. The authentication request includes the SIM subscriber identification number based on the VoLTE connection request.
In response, the authentication database 4 returns an authentication response to the S-CSCF 6. The authentication response includes the mode (normal mode or energy saving mode) registered according to the subscriber identification number based on the authentication request.
As a result, the S-CSCF 6 operates for the smart phone 1 based on the intermittent reception interval corresponding to the mode.

(S324) S-CSCF6 returns a VoLTE connection response to P-CSCF5. The VoLTE connection response includes the mode with SIM, and P-CSCF 5 recognizes the discontinuous reception interval with SIM.
P-CSCF 5 then returns the VoLTE connection response to core network device 3 .

(S325) The core network device 3 returns a VoLTE connection response to the smartphone 1.

(S326) S-CSCF 6 transmits a VoLTE connection request to TAS 7 after S324.

(S 327 ) TAS 7 sends the authentication request to authentication database 4 .
In response to this, the authentication database 4 returns an authentication response to the TAS7. The authentication response includes the mode (normal mode or energy saving mode).
Thereby, the TAS 7 recognizes the mode for the smartphone 1 and operates based on the intermittent reception interval according to the mode.

(S328) Then, TAS7 returns a VoLTE connection response to S-CSCF6.

FIG. 4 is a sequence diagram for returning a pre-ringback tone when the energy-saving mode SIM becomes the called party.

(S411) The S-CSCF 61 receives an INVITE (call connection request) for the smartphone of the calling side from the S-CSCF of the calling side. It is assumed that the S-CSCF 61 communicates with the normal mode SIM of the smart phone 1 .
(S412) Since the S-CSCF 61 connects to the normal mode SIM 11 of the smart phone 1 on the called side, the INVITE is transferred to the normal mode TAS 71 .
(S413) In response, the TAS 71 sends 183 Session Progress to the S-CSCF 61. The S-CSCF 61 forwards the 183 Session Progress to the calling S-CSCF.

(S414) After that, the S-CSCF 61 receives an UPDATE from the calling S-CSCF. UPDATE is for confirming that the voice media bearer and QoS settings have been completed between the originating network and the terminating network.
(S415) S-CSCF 61 transfers the UPDATE to TAS 71 for normal mode.
(S416) In response to this, the normal mode TAS 71 returns 200OK to the S-CSCF 61.
The S-CSCF 61 forwards the 200OK to the calling S-CSCF.

(S417) Then, the normal mode TAS 71 transmits a pre-ring back tone to the calling party. As a result, a pre-ringback tone is uttered to the smartphone 1 on the calling side.

A pre-ringback tone is a sound different from a normal ringback tone. Generally, in VoLTE, the service specification is such that when the called terminal receives a 180 Response, the calling party's smartphone emits a ringback tone (puzzling sound) calling the called terminal from the speaker. It has become.

However, in the case of the energy-saving mode SIM 12 in the called terminal, it takes a long time to receive the 180 Response. In other words, it is assumed that the calling user feels uneasy as to whether or not the call is being made because of the long silence. For this reason, in S417, the calling terminal utters a pre-ringback tone until the 180 Response can be received from the energy-saving mode SIM 12 of the called terminal.

(S421) At the time of S412, the TAS 71 recognizes that the smart phone 1 on the called side has a contract with the energy saving mode SIM 12 as well. However, it does not recognize whether or not the energy-saving mode SIM 11 in the smart phone 1 on the called side is disconnected. Therefore, the TAS 71 for normal mode needs to transfer the INVITE once to the TAS 72 for energy saving mode. Of course, it is sufficient if there is a separate sequence between the TAS 71 and the TAS 72 for recognizing that the energy-saving mode SIM of the smart phone 1 on the called side is disconnected.
Therefore, the TAS 71 transfers the INVITE to the S-CSCF 61 to transfer it to the S-CSCF 62 to communicate with the energy saving mode SIM 12 .
In response to this, S-CSCF 61 transmits the INVITE to S-CSCF 62 to which SIM 12 for energy saving mode is connected.

(S422) S-CSCF 62 transfers the INVITE to TAS 72 with which SIM 12 for energy saving mode communicates.
(S423) TAS 72 returns the INVITE to S-CSCF 62 once.
(S424) The S-CSCF 62 transfers the INVITE to the energy saving mode SIM 12 of the smart phone 1 on the called side.
After transfer to the SIM 12, if no Response signal is received from the smart phone of the called side within a certain period of time, the call times out, and it is determined that the call is "out of service area or power is off." The number of seconds of this fixed time is also a system setting value in IMS.

(S425) In response to this, the energy-saving mode SIM 12 of the smart phone 1 on the called side returns a 180 Response to the INVITE to the S-CSCF 62 .
(S426) S-CSCF62 transfers the 180 Response to TAS72.
TAS72 returns the 180 Response to S-CSCF62.
S-CSCF 62 then returns the 180 Response to S-CSCF 61 .

Note that 180 Response is not a user's reception operation, but a signal automatically answered by the smartphone on the receiving side.

(S427) S-CSCF61 transfers the 180 Response to TAS71.
(S428) In response, the TAS 71 switches the sound source from the pre-ringback tone transmitted to the calling terminal to the normal ringback tone. TAS 71 then forwards the ringback tone to the calling party.
As a result, the voice output from the speaker of the calling terminal is switched from the pre-ringback tone to the ringback tone.

As described in detail above, according to the system of the present invention, by switching a normal mode SIM with a normal intermittent reception interval to an energy saving mode SIM with a long intermittent reception interval, battery consumption of the terminal can be reduced. It is possible to reduce power consumption and realize an energy-saving mode for communication equipment.

According to another embodiment of the present invention, a smart phone connected with an energy-saving mode SIM can comply with, for example, the following regulations.
(1) Permit packet communication only for specific websites.
(2) Control unnecessary and non-urgent traffic such as advertisements.
(3) Reduce the number of packets by forcibly extending the voice packet transmission interval during a VoLTE call (not to reduce the amount of data).
(4) By utilizing dual SIM, mobile phone providers can provide additional functions that could not be provided with single SIM.

For the various embodiments of the present invention described above, various changes, modifications and omissions within the spirit and scope of the present invention can be easily made by those skilled in the art. The foregoing description is exemplary only and is not intended to be limiting. The invention is to be limited only as limited by the claims and the equivalents thereof.

1 terminal, smartphone 11 SIM for normal mode
12 SIM for energy saving mode
2 base station 3 core network device 4 authentication database 51, 52 P-CSCF
61, 62 S-CSCF
71, 72 TAS

Claims (7)

In a system having a terminal equipped with multiple SIMs (Subscriber Identity Modules) and a communication facility device including a core network device and an authentication database ,
For the terminal, a different subscriber identification number is described for each SIM,
The authentication database registers an intermittent time interval for each subscriber identification number,
The terminal transmits a packet connection request including a subscriber identification number based on each SIM;
When the core network device receives the packet connection request from the terminal, the core network device transmits an authentication request including the subscriber identification number to the authentication database,
The authentication database returns an authentication response including an intermittent reception interval registered according to the subscriber identification number to the core network device,
The core network device returns a packet connection response including an intermittent reception interval based on the authentication response to the terminal, and operates with the terminal based on the intermittent reception interval.
A system characterized by: The terminal is equipped with a normal mode SIM and an energy saving mode SIM , and uses only one of the SIMs exclusively as DSSS (Dual SIM Single Standby),
The intermittent reception interval in the normal mode SIM is a standard value based on DRX (Discontinuous Reception),
2. The system according to claim 1, wherein the intermittent reception interval in the energy saving mode SIM is a standard value based on eDRX (extended DRX). 2. The terminal connects to the communication equipment using the energy-saving mode SIM when selected by the user or when the energy-saving operation should be automatically executed according to a predetermined condition. The system described in . The subscriber identification number (IMSI (International Mobile Subscriber Identity)) of the normal mode SIM installed in the same terminal and the subscriber identification number of the energy saving mode SIM are linked in advance under the contract of the same user. is a
4. The system of claim 3, wherein the terminals are exclusively controlled such that when one SIM is connected to the communication equipment, the other SIM is disconnected from the communication equipment. The communication facility device further has a CSCF (Call Session Control Function),
When the CSCF receives a VoLTE (Voice over Long Term Evolution) connection request based on the terminal, it sends an authentication request to the authentication database;
the authentication database returning an authentication response including the subscriber identification number and mode to the CSCF;
5. The system of claim 4 , wherein the CSCF operates based on the discontinuous reception interval according to the mode for the terminal. The communication facility device further has a TAS (Telephony Application Server),
When the TAS receives a VoLTE connection request based on the terminal, sending an authentication request including the subscriber identification number to the authentication database;
The authentication database returns an authentication response including a mode corresponding to the subscriber identification number to the TAS;
6. The system of claim 5 , wherein the TAS operates based on the mode-dependent discontinuous reception interval for the terminal. The TAS for normal mode transmits a pre-ringback tone different from the ringback tone to the calling terminal in response to a call connection request from the calling terminal when the called terminal is for energy saving mode. 7. The system of claim 6 , wherein:

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